Statistics

H-Index: 48
Times cited: >8000

Patents

Light emitting semiconductor diode. United States Patent 8,450,127.

Method for Depositing Silicon Nanocrystals in Hollow Fibers. United States Patent 9,452,446.

Spin-off


Scientific Publications

194. S Vasireddy and A Meldrum, A general-purpose spectroscopic camera for single-board computers. Optik, 302, 171710, 2024.

193. Md M. Rana, K.Mk Alam, N. Chaulagain, J. Garcia, N. Kumar, D. Vrushabendrakumar, H. Rajashekhar, G.M. Bernard, A. Meldrum, V. K Michaelis, K. Shankar, Tunable Absorption and Emission in Mixed Halide Bismuth Oxyhalides for Photoelectrochemical Water Splitting, ACS Applied Nano Materials 7, 6005–6019, 2024.

192. I.T. Cheong, L. Yang Szepesvari, C. Ni, C. Butler, K.M. O'Connor, R. Hooper, A. Meldrum, J.G.C. Veinot,  Not all silicon quantum dots are equal: photostability of silicon quantum dots with and without a thick amorphous shell. Nanoscale, 2, 592-603, 2024.

191. N. Chaulagain, J. Garcia, N. Kumar, H. Rajashekhar, X. Liu, P. Kumar, A. Meldrum, K.M. Alam, K.  Shankar,  Chemical sensing and imaging using fluorophore-conjugated cellulose nanocrystals. Journal of Materials Science: Materials in Electronics 34, 538-1-12, 2023.

190. D. Mumbaraddi, V. Mishra, M. Jomaa, X. Liu, A. Karmakar, S. Thirupurasanthiran, V.K. Michaelis, A.P. Grosvenor, A. Meldrum, A. Mar, Controlling the Luminescence of Rare-Earth Chalcogenide Iodides RE3(Ge1–xSix)2S8I (RE = La, Ce, and Pr) and Ce3Si2(S1–ySey)8I. Chemistry of Materials 35, 6039-6049, 2023.

189. T. Mehreen, S. Vagin, V.N. Kumar, X. Liu, L. Eylert, B. Rieger, A. Meldrum, A phenylene-based light-emitting polymer: Atums Green. Macromolecular Chemistry and Physics 24, 2200294, 2023.

188. R. Firouzi-Haji, M. Aghajamali, H. Hassanzadeh, Q. Lu, X. Zhang, J.G.C. Veinot, A. Meldrum, Asphaltene-Derived Graphene Quantum Dots for Controllable Coatings on Glass, Fabrics, and Aerogels. ACS Omega 46, 43610-43616, 2023.

187. Z. Zhang, W. Morrish, L. Wang, H. Gao, X. Liu, Y. Yang, F. Marsiglio, A. Meldrum, Coupled microbeads for unidirectional cascade lasing transfer. Optics and Laser Technology 58, 108832, 2023.

186. I.T. Cheong, J. Mock, M. Kallergi, E. Groß, A. Meldrum, B. Rieger, M. Becherer and J.G.C. Veinot, Colloidal Silicon Quantum Dot-Based Cavity Light-Emitting Diodes with Narrowed and Tunable Electroluminescence. Advanced Optical Materials 11, 2201834, 2023.

185. S.K. Raut, S. Sarkar, P. Mondal, A. Meldrum, N.K. Singha, Covalent adaptable network in an anthracenyl functionalised non-olefinic elastomer; a new class of self-healing elastomer coupled with fluorescence switching . Chemical Engineering Journal 453, 139641 2023.

184. H. Wang, R. Firouzihaji, M. Aghajamali, M.A. Vieira, J-Y. Cho, Q. Lu, X. Zhang, A.J. Bergren, J.G.C. Veinot, H. Hassanzadeh, A. Meldrum, Graphene Quantum Dot Bearing Liquid Droplets for Ultra-Sensitive Fluorescence-Based Detection of Nitroaromatics. ACS Applied Nanomaterials 5, 14639-14645, 2022.

183. A. Meldrum, Time-Resolved Photoluminescence Spectroscopy of Semiconductor Nanocrystals and Other Fluorophores. Journal of Visualized Experiments 186, e64101, 2022

182. M. Aghajamali, M.A. Vieira, R. Firouzihaji, K. Cui, J-Y. Cho, A.J. Bergren, H. Hassanzadeh, A. Meldrum, Synthesis and properties of multi-functionalized graphene quantum dots with tunable photoluminescence and hydrophobicity from asphaltene and its oxidized and reduced derivatives. Nanoscale Advances DOI: 10.1039/d2na00445c, 2022

181. A.P. Kalra, B.B. Eakins, S.I. Vagin, H. Wang, S.D. Patel, P. Winter, M. Aminpour, J.D. Lewis, V. Rezania, K. Shankar, G.D. Scholes, J.A. Tuszynski, B. Rieger, A. Meldrum, A Nanometric Probe of the Local Proton Concentration in Microtubule-Based Biophysical Systems. Nano Letters 22, 517−523, 2022.

180. P.D.Thungon, H. Wang, S.I. Vagin, C. van Dyck, P. Goswami, B. Rieger, A. Meldrum,  A Fluorescent Alcohol Biosensor Using a Simple microPAD Based Detection Scheme, Frontiers in Sensors, 3, 1-12, 2022.

179. Y. Zhi, Z. Feng, T. Mehreen, X. Liu, K. Gardner, X. Li, B. Guan, L. Zhang, S. I. Vagin, B. Rieger, A. Meldrum, Two-Photon Fluorescence in Red and Violet Conjugated Polymer Microspheres. MDPI Inorganics 10, 101, 2022.

178. H. Wang, Z. Wei, S.I. Vagin, X. Zhang, B. Rieger, A. Meldrum, Ultrasensitive Picomolar Detection of Aqueous Acids in Microscale Fluorescent Droplets, ACS Sensors 7, 245–252, 2022.

177. L.J. Zhang, T. Mehreen, S. Vagin, K. Gardner, H. Wang, X. Liu, X.J. Sun, S. Wu, B. Rieger, A. Meldrum, Wide-gamut blended conjugated polymer microspheres, Advanced Optical Materials 2021, 2101788, 2021.

176. Q. Shen, T. Shu,H. Wang,C. Fang,Y. Zhang,A. Meldrum,M.J. Serpe, Sensing using a fluorescent product generated from Cu2+ assisted L-Ascorbic acid oxidation. Nano Select 2021;1–10, 2021.

175. I. Cheong, W. Morrish, W. Sheard, H. Yu, B. Luppi, L. Millburn, A. Meldrum, J.G.C. Veinot, Silicon Quantum Dot-Polymer Fabry-Pérot Resonators with Narrowed and Tunable Emissions. ACS Applied Materials and Interfaces 13, 27149-27158, 2021.

174. A.N. Thiessen, L.J. Zhang, A.O. Oliynyk, H. Yu, K.M. O’Connor, A. Meldrum, J.G,C, Veinot, A Tale of Seemingly “Identical” Silicon Quantum Dot Families: Structural Insight into Silicon Quantum Dot Photoluminescence. Chemistry of Materials 32, 6838-6846, 2020.

173. H. Wang, S.I. Vagin, B. Rieger A. Meldrum, An Ultrasensitive Fluorescent Paper-Based CO2 Sensor, ACS Applied Materials and Interfaces 12, 20507-20513, 2020.

172. U. Thakur, P. Kumar, G.M. Bernard, A. Meldrum, A.O. Olinyk, V.K. Michaelis, Tailorable Indirect to Direct Bandgap Double Perovskites with Bright White-Light Emission, Journal of the American Chemical Society 142, 10780-10793, 2020.

171. U. Thakur, P. Kumar, S. Gusarov, A.E. Kobryn, S. Riddell, A. Goswami, K. Alam, S. Savela, P. Kar,
T. Thundat, A. Meldrum, K. Shankar. (in press). Consistently High Voc Values in p-i-n Type Perovskite
Solar Cells Using Ni3+-Doped NiO Nanomesh as the Hole Transporting Layer. ACS Applied Materials &
Interfaces (2020).

170. H. Wang, S.I. Vagin, S. Lane, W. Lin, V. Shyta, W.R. Heinz, C. Van Dyck, A.J. Bergren, K. Gardner, B. Rieger, A. Meldrum, Metal−organic framework with color-switching and strongly polarized emission. Chemistry of Materials 31, 5816 (2019).

169. Z. Zhang W. Morrish, K. Gardner, S. Yang, Y. Yang, A. Meldrum. (2019). Functional lasing
microcapillaries for surface-specific sensing. Optics Express. 19, 26967 (2019).

168. U. Thakur, S. Zeng, P. Kumar, S. Patel, R. Kisslinger, Y. Zhang, P. Kar, A. Goswami, T. Thundat, A. Meldrum, K. Shankar Nanophotonic enhancement and improved electron extraction in perovskite solar cells using near-horizontally aligned TiO2 nanorods. Journal of Power Sources 417, 176 (2019).

167. M. Jakob, M. Javadi, J.G.C. Veinot, A. Meldrum, A. Kartouzian, U. Heiz, Ensemble Effects in the Temperature-Dependent Photoluminescence of Silicon Nanocrystals. Chemistry: A European Journal 12, 3061 (2019).

166. S. Lane, S. Vagin, H. Wang, W.R. Heinz, Y. Zhao, B. Rieger, A. Meldrum, Wide-gamut lasing from a single organic chromophore. Light: Science and Applications 7, 101 (2018).

165. M. Jakob, A. Aissiou, W. Morrish, M.A. Islam, A. Kartouzian, A. Meldrum, Reappraising the luminesence lifetime distributions in silicon nanocrystals. Nanoscale Research Letters 13, 383 (2018).

164. W. Morrish, N. Riesen, S. Stobie, A. Francois, A. Meldrum, Geometric resonances for high-sensitivity microfluidic lasing sensors. Physical Review: Applied 10, 051001 (2018).

163. W. Newman, C.L. Cortes, A. Afshar, K. Cadien, A. Meldrum, R. Fedosejevs, Z. Jacob,  Emergence of Super-Coulombic Dipole-Dipole Interactions in Metamaterials. Science Advances 4, eaar5278 (2018).

162. K. Gardner, M. Aghajamali, S. Vagin, J. Pille, W. Morrish, J.G.C. Veinot, B. Rieger, A. Meldrum, Ultra-bright fluorescent and lasing microspheres from a conjugated polymer. Advanced Functional Materials 2018, 1802759  (2018).

161. G. Thomas, A. Meldrum, Students’ perceptions of changes to the learning environments of undergraduate physics laboratories: An empirical study. Interactive Technology and Smart Education 15, 165-180 (2018)

160. A. Angi, R. Sinelnikov, H.H. Heenen, A. Meldrum, J.G.C. Veinot, C. Scheurer, K. Reuter, O. Ashkenazy, D. Azulay, I. Balberg, O. Millo, B. Rieger, The in fl uence of conjugated alkynyl ( aryl ) surface groups on the optical properties of silicon nanocrystals: photoluminescence through in-gap states. Nanotechnology 29, 355705 (2018).

159. K. Gardner, Y. Zhi, L. Tan, S. Lane, Y-F. Xiao, A. Meldrum, Whispering gallery mode structure in polymer-coated lasing microspheres. Journal of the Optical Society of America B 34, 2140-2146 (2017).

158. A. Meldrum, W. Morrish, S. Lane, W. Wu, T, Monro, A. Francois, Luminescent Capillary-Based Whispering Gallery Mode Sensors: Crossing the Lasing Threshold. Physica Status Solidi A 2017, 1700619 (2017).

157. A. Beltaos, J. Bergren, K. Bosnick, N. Peka, S. Lane, K. Cui, A. Matković, and A. Meldrum, Visible light emission in graphene field effect transistors. NanoFutures 1, 025004 (2017).

156. R. Sinelnikov, M. Dasog, J. Beamish, A. Meldrum, and J.G.C. Veinot, Revisiting an Ongoing Debate: What Role Do Surface Groups Play in Silicon Nanocrystal Photoluminescence? ACS Photonics 4, 1920-1929 (2017).

155. M.W.Lui, O. Shynkaruk, M.S. Oakley, R. Sinelnikov, R. McDonald, M.J. Ferguson, A. Meldrum, M. Klobukowski and E. Rivard,  Engaging dual donor sites within an N-heterocyclic olefin phosphine ligand. Dalton Transactions 46, 5946 (2017).

154. P. Shekhar, M. Malac, V. Gaind, N. Dalili, A. Meldrum, and Z. Jacob, Momentum-Resolved Electron Energy Loss Spectroscopy for Mapping the Photonic Density of States. ACS Photonics 4, 1009-1014 (2017).

153. T. Reynolds, N. Riesen, A. Meldrum, X. Fan, J.M.M. Hall, T.M. Monro, and A. François, Fluorescent and Lasing Whispering Gallery Mode Microresonators for Sensing Applications. Laser & Photonics Reviews 11, 1600265 (2017).

152. W. Morrish, P. West, N. Orlando, E. Klantsataya, K. Gardner, S. Lane, R. Decorby, A. François, and A. Meldrum, Refractometric micro-sensor using a mirrored capillary resonator. Optics Express  24, 24959-24970 (2016).

151. A. François, N. Riesen, K. Gardner, T.M. Monro, and A. Meldrum,  Lasing of whispering gallery modes in opto-fluidic microcapillaries. Optics Express 24, 12466-12477 (2016).

150. L. Fent and A. Meldrum, A Foveon sensor green-pass filter technique for direct exposure of tradiatonal false-color images. Journal of Imaging 2, 14 (2016).

149. A. Angi, R. Sinelnikov, A. Meldrum, J.G.C. Veinot, I. Balberg, D. Azulay, O. Millo, and B. Rieger, Photoluminescence through in-gap states in phenylacetylene functionalized silicon nanocrystals. Nanoscale 8, 7849-7853 (2016).

148. A. Nguyen, C.M. Gonzalez, R. Sinelnikov, W. Newman, S. Sun, R. Lockwood, J.G.C. Veinot, and A. Meldrum, "Detection of nitroaromatics in the solid, solution, and vapor phases using silicon quantum dot sensors," Nanotechnology 27, 105501 (2016).

147. A. François, Y. Zhi, and A. Meldrum, "Whispering Gallery Mode Devices for Sensing and Biosensing," in Photonic Materials for Sensing, Biosensing, and Display Devices, Springer Series in Materials Science v.229, 237-288 (2015).

146. Z. Yang, C.M. Gonzalez, T.K. Purkait, M. Iqbal, A. Meldrum, and J.G.C. Veinot, "Radical initiated hydrosilylation on silicon nanocrystal surfaces: an evaluation of functional group tolerance and mechanistic study," Langmuir 31, 10540-10548 (2015).

145. S. Lane, P. West, A. François, and A. Meldrum, "Protein biosensing with fluorescent microcapillaries" Optics Express 23, 2577-2590 (2015). SPIE newsroom article here.

144. V. Zamora, Z. Zhang, and A. Meldrum, "Refractometric sensing of heavy oils in fluorescent core microcapillaries," Oil and Gas Science and Technology - Rev. IFP Energies Nouvelles 70, 487-495 (2015).

143. J. Chan, T. Thiessen, S. Lane, P. West, K. Gardner, A. François, and A. Meldrum, "Microfluidic detection of vitamin D3 compounds using a cylindrical optical microcavity," IEEE Sensors Journal 15, 3467-3474 (2015).

142. S. Lane, Y. Zhi, F. Marsiglio, and A. Meldrum, "Refractometric sensitivity and thermal stabilization of fluorescent core microcapillary sensors: theory and experiment," Applied Optics 6, 1331-1340 (2015).

141. R.H. Magruder III, R.F. Haglund, and A. Meldrum, "Effects of Ti charge state, ion size and beam-induced compaction on the formation of Ag metal nanoparticles in fused silica," Applied Physics A 119, 19-31 (2015).

140. R. Lockwood, Z. Yang, R. Sammynaiken, J.G.C. Veinot, and A. Meldrum, "Light-induced evolution of silicon quantum dot surface chemistry: Implications for photoluminescence, sensing, and reactivity," Chemistry of Materials 26, 5467-5474 (2014).

139. Y. Zhi and A. Meldrum, "Tuning a microsphere whispering gallery mode sensor for extreme thermal stability," Applied Physics Letters 105, 031902 (2014).

138. A. Meldrum and F. Marsiglio, "Capillary-type microfluidic sensors based on optical whispering gallery mode resonances," Reviews in Nanoscience and Nanotechnology 3, 193-209 (2014).

137. S. Lane, J, Chan, T. Thiessen, and A. Meldrum, "Whispering gallery mode structure and refractometric sensitivity of fluorescent capillary-type sensors," Sensors and Actuators B: Chemical 190, 752-759 (2014).

136. Z. Yang, M. Dasog, A.R. Dobbie, R. Lockwood, Y. Zhi, A. Meldrum, and J.G.C. Veinot, "Highly luminescent covalently linked silicon nanocrystals / polystyrene hybrid functional materials: synthesis, properties, and processability," Advanced Functional Materials 24, 1345-1353 (2014).

135. G.P. Thomas, A. Meldrum, and J. Beamish, "Conceptualization, Development and Validation of an Instrument for Investigating Elements of Undergraduate Physics Laboratory Learning Environments: The UPLLES (Undergraduate Physics Laboratory Learning Environment Survey)," European Journal of Physics Education 4, 26-40 (2013).

134. Y. Zhi, J. Valenta, and A. Meldrum, "Structure of whispering gallery mode spectrum of microspheres coated with fluorescent silicon quantum dots," Journal of the Optical Society of America B 30, 3079-3085 (2013).

133. M.C. Zhang, T.W. Allen, B. Drobot, S. McFarlane, A. Meldrum, and R.G. DeCorby, "Transparency and stability of Ag-based metal-dielectric multilayers," Applied Optics 52, 7479-7485 (2013).

132. Z. Zhang, R. Lockwood, J.G.C. Veinot, and A. Meldrum, "Fiber optic vapor sensing with silicon quantum dots," Sensors and Actuators B 181, 523-528 (2013).

131. A. Meldrum, "Silicon nanocrystals coupled to optical microcavities," Chapter in Handbook of Silicon Photonics, edited by O. Anopchenko (2013).

130. Y. Zhi, T. Thiessen, and A. Meldrum, "Silicon quantum-dot-coated microspheres for microfluidic refractive index sensing," Journal of the Optical Society of America B 30, 51-56 (2013).

129. R. Lockwood, J.G.C. Veinot, and A. Meldrum, "Sensing Water and Alcohol Vapors with Freestanding Silicon Quantum Dots," Sensor Letters 11, 1535-1540 (2013).

128. S. McFarlane, C.P.K. Manchee, J.W. Silverstone, J.G.C. Veinot, and A. Meldrum, "Synthesis and operation of fluorescent-core microcavities for refractometric sensing," Journal of Visualized Experiments 73, e50256, doi:10.3791/50256 (2013).

127. S. McFarlane, C.P.K. Manchee, J.W. Silverstone, J.G.C. Veinot, and A. Meldrum, "Feasibility of a fluorescent-core microcapillary for biosensing applications," Sensor Letters 11, 1513-1518 (2013).

126. Y. Zhi, C.P.K. Manchee, J. Silverstone, Z. Zhang, and A. Meldrum, "Refractometric Sensing with Silicon Quantum Dots Coupled to a Microsphere," Plasmonics 8, 71-78 (2013).

125. D. G. Cooke, A. Meldrum, and P. Uhd Jepsen, "Ultrabroadband terahertz conductivity of Si nanocrystal films," Applied Physics Letters 101, 211107 (2012).

124. X. Wang, R. Lockwood, D. Vick, P. Li, A. Meldrum, M. Malac, A convenient method for electron tomography sample preparation using a focused ion beam. Microscopy Research and Technique 75, 1165-1169 (2012).

123. R.H. Magruder, S. Robinson, C. Smith. A. Meldrum, R.F. Haglund, Fabricating a Dichroic Plasmonic Mirror in Fused Silica by Dual-Ion Implantation. Applied Physics A 107, 935-942 (2012).

122. J.W. Silverstone, S. McFarlane, C.P.K. Manchee, A. Meldrum, Ultimate resolution for refractometric sensing with whispering gallery mode microcavities. Optics Express 20, 8284-8295 (2012).

121. X.Y. Wang, R. Lockwood, M. Malac, H. Furukawa, P. Li, A. Meldrum, Reconstruction and visualization of nanoparticle composites by transmission electron tomography. Ultramicroscopy 113, 96-105 (2012).

120. C.P.K. Manchee, V. Zamora, J. Silverstone, J.G.C. Veinot, A. Meldrum, Refractometric sensing with fluorescent-core microcavities. Optics Express 19, 21540-21551 (2011).

119. T.W. Allen, J. Silverstone, N. Ponnamapalam, A. Meldrum, R.G. DeCorby, High-finesse cavities fabricated by self-assembly of a-Si/SiO2 multilayers. Optics Express 19, 18903-18909 (2011).

118. P. Bianucci, Y.Y. Zhi, F. Marsiglio, J. Silverstone, A. Meldrum, Microcavity effects in ensembles of silicon quantum dots coupled to high-Q resonators. Physica Status Solidi A 208, 639 (2011).

117. R. Lockwood, S. McFarlane, J.R. Rodriguez-Nunez, X.Y. Wang, J.G.C. Veinot, A. Meldrum, Photoactivation of silicon quantum dots. Journal of Luminescence 131, 1530 (2011).

116. E. Epp, N. Ponnampalan, W. Newman, B. Drobot, J.N. McMullin, A. Meldrum, R.G. DeCorby, Hollow Bragg waveguides fabricated by controlled buckling of Si/SiO2 multilayers. Optics Express 18, 24914 (2011).

115 X.Y. Wang, P. Li, M. Malac, R. Lockwood, A. Meldrum, The spatial distribution of silicon nanocrystals and Er ion clusters by simultaneous high-resolution energy filtered and Z-contrast transmission electron tomography. Physica Status solidi C 208, 1038 (2011).

114. L.V. Titova, T.L. Cocker, D.G. Cooke, X.Y. Wang, A. Meldrum, F. Hegmann, Ultrafast percolative transport dynamics in silicon nanocrystal films. Physical Review B 83, 085403 (2011).

113. A. Meldrum, P. Bianucci, F. Marsiglio, Modification of ensemble emission rates and luminescence spectra for inhomogeneously broadened distributions of quantum dots coupled to optical microcavities. Optics Express 18, 10230 (2010).

112. P. Bianucci, X. Wang, J. Veinot, A. Meldrum, Silicon nanocrystals on bottle resonators: Mode structure, loss mechanisms and emission dynamics. Optics Express 18, 8466 (2010).

111. A. Halabica, S.T. Pantelides, R.F. Haglund, R.H. Magruder, A. Meldrum, Excitation and detection of surface acoustic phonon modes in Au/Al2O3 multilayers. Physical Review B 80, 165422 (2009).

110. S.Y. Sayed, F. Wang, M. Malac, A. Meldrum, R.F. Egerton, J.M. Buriak, Heteroepitaxial Growth of Gold Nanostructures on Silicon by Galvanic Displacement. ACS Nano 3, 2809 (2009).

109. F. Lenz, A. Hyciw, R. DeCorby, A. Meldrum, Reversing the temperature dependence of the sensitized Er3+ luminescence intensity. Applied Physics Letters 25, 091909 (2009).

108. F. Lenz, R. DeCorby, A. Meldrum, Sensitization efficiencies in Er-doped SiOx films containing amorphous or crystalline silicon nanoclusters. Physica Status Solidi A 206, 989 (2009).

107. P. Bianucci, J.R. Rodriguez, C. Clements, C.M. Hessel, J.G.C. Veinot, A. Meldrum, Whispering gallery modes in silicon nanocrystal coated microcavities. Physica Status Solidi A 206, 965 (2009).

106. K. Choy, F. Lenz, X.X. Liang, F. Marsiglio, A. Meldrum, Geometrical effects in the energy transfer mechanism for silicon nanocrystals and Er3+. Applied Physics Letters 26, 261109 (2009).

105. R. Lockwood and A. Meldrum, Luminescence simulations of ensembles of silicon nanocrystals. Physica Status Solidi A 206, 973 (2009).

104. P. Bianucci, J.R. Rodriguez, F. Lenz, C.M. Clement, J.G.C. Veinot, and A. Meldrum, Silicon nanocrystal luminescence coupled to whispering gallery modes in optical fibers. Journal of Applied Physics 105, 023108 (2009).

103. A. Meldrum, R. Lockwood, V. Balyakov, V. Burdov, Computational simulations for ensembles of luminescent silicon nanocrystals: Implications for optical gain and stimulated emission. Physica E 41, 955 (2009).

102. V.A. Belyakov, V.A. Burdov, R. Lockwood, and A. Meldrum, Silicon Nanocrystals: Fundamental Theory and Implications for Stimulated Emission. Advances in Optical Technologies 2008, 279502 (2008).

101. S. Kuai and A. Meldrum, Rapid color-switching micro-LEDs fabricated in silicon MIS diodes, Physica E 41, 916 (2009).

100. R. H. Magruder, S. Robinson, C. Smith, A. Meldrum, A. Halabica, R. F. Haglund Jr., Dichroism in Ag nanoparticle composites with bimodal size distribution. Journal of Applied Physics 105, 024303 (2009).

99. P. Bianucci , J. R. Rodriguez, F. C. Lenz, J. C. G. Veinot, A. Meldrum, Mode structure in the luminescence of silicon nanocrystals in cylindrical microcavities, Physica E 41, 1107 (2009).

98. R.H. Magruder and A. Meldrum, Optical Properties of Ag Nanocrystals in Sc and O Sequentially Implanted Silica, Journal of Non-Crystalline Solids 355, 17 (2009).

97. J. Rodriguez, P. Bianucci, A. Meldrum, and J.G.C. Veinot, Whispering gallery modes in hollow cylindrical microcavities containing silicon nanocrystals. Applied Physics Letters 92, 131119 (2008).

96. S. Kuai and A. Meldrum, High-speed color-switching silicon LEDs. Advanced Materials 20, 3844 (2008). Cover image

95. C. Hessel, M.A. Summers, A. Meldrum, M. Malac, J.G.C. Veinot, Direct Patterning, Conformal Coating, and Erbium Doping of Luminescent nc-Si/SiO2 Thin Films from Solution Processable Hydrogen Silsesquioxane. Advanced Materials 19, 3513 (2007). Science Highlight , Cover image

94. R.H. Magruder and A. Meldrum, The effect of Ti and O on the optical properties and microstructure of Ag nanocrystals formed in silica by sequential ion implantation. Journal of Non-Crystalline Solids, 353, 4813 (2007).

93. A. Ueda A, M. Wu, R. Aga, A. Meldrum, C.W. White, W.E. Collins, R. Mu, Temperature dependence and annealing effects of absorption edges for selenium quantum dots formed by ion implantation in silica glass. Surface & Coatings Technology 201, 8542 (2007).

92. D.G. Cooke, A.N. MacDonald, A. Hryciw, A. Meldrum, J. Wang, Q. Li, and F.A. Hegmann, Ultrafast terahertz conductivity of photoexcited nanocrystalline silicon. Journal of Materials Science: Materials Electronics DOI 10.1007/s10854-007-9248-y (2007).

91. A. Beltaos and A. Meldrum: Whispering gallery modes in silicon-nanocrystal-coated silica microspheres. Journal of Luminescence 126, 607 (2007).

90. F. Wang, M. Malac, R.F. Egerton, A. Meldrum, X.B. Zhu, Z.G. Liu ZG, N. Macdonald, P. Li, M.R. Freeman: Multilayer route to iron nanoparticle formation in an insulating matrix. Journal of Applied Physics 101, 034314 (2007).

89. F. Wang, M. Malac, R.F. Egerton, A. Meldrum, P. Li, M.R. Freeman, J.G.C. Veinot: Controlled growth of silicon oxide nanowires from a patterned reagent. Journal of Physical Chemistry C 111, 1865 (2007).

88. J. Wang, X.F. Wang, Quan Li, A. Hryciw, and A. Meldrum, The microstructure of SiO thin films: From nanoclusters to nanocrystals. Philosophical Magazine 87, 11 (2007). 87. R. Lockwood, A. Hryciw, and A. Meldrum: Non-resonant carrier tunneling in arrays of silicon nanocrystals. Applied Physics Letters 89, 263112 (2006).

86. A. Meldrum, A. Hryciw, N. MacDonald, C. Blois, T. Clement, R. DeCorby, J. Wang, Quan Li, Interaction between rare earth ions and amorphous silicon nanoclusters produced at low processing temperatures. Journal of Luminescence 121, 199 (2006).

85. T.J. Clement, R.G. DeCorby, N. Ponnampalam, T.W. Allen, A. Hryciw, and A. Meldrum: Nanocluster sensitized erbium-doped silicon monoxide waveguides. Optics Express 14, 12151 (2006).

84. A.N. MacDonald, A. Hryciw, F. Lenz, and A. Meldrum: Energy transfer between amorphous silicon nanoclusters and neodymium ions. Applied Physics Letters 89, 173132 (2006).

83. D. Cooke, A.N. MacDonald, A. Hryciw, J. Wang, Q. Li, A. Meldrum, and F.A. Hegmann: Transient terahertz conductivity in photoexcited silicon nanocrystal films. Physical Review B 73, 193311 (2006).

82. A. Meldrum, A. Hryciw, A.N. MacDonald, C. Blois, K. Marsh, J. Wang, and Q. Li: Photoluminescence in the silicon-oxygen system. Journal of Vacuum Science and Technology A 24, 713 (2006).

81. N. Macdonald, A. Hryciw, Q. Li, A. Meldrum: Luminescence of Nd-enriched silicon nanoparticle glasses. Optical Materials 28, 820 (2006).

80. A. Hryciw, C. Blois, A. Meldrum, T. Clement, R. DeCorby, Q. Li: Photoluminescence from Er-doped silicon oxide microcavities.Optical Materials 28, 873 (2006).

79. K.S. Buchanan, X. Zhu, A. Meldrum, M.R. Freeman: Ultrafast dynamics of a ferromagnetic nanocomposite, Nanoletters 5, 383 (2005).

78. A. Hryciw, J. Laforge, C. Blois, M. Glover, A. Meldrum: Tunable luminescence from a silicon-rich oxide microresonator. Advanced Materials, 17, 845 (2005).

77. X. Zhu, K.S. Buchanan, C. Blois, Z. Liu, A. Meldrum, M.R. Freeman: Thermal annealing effect on the magnetic properties of Fe nanoparticles implanted into single-crystal yttrium stabilized zirconia. Journal of Applied Physics 97, 10A720 (2005).

76. M. Glover, A. Meldrum: Effect of "buffer layers" on the optical properties of silicon nanocrystal superlattices. Optical Materials 27, 977 (2005).

75. R.F. Magruder, A. Meldrum: Effect of annealing on the optical properties of Ag nancrystals in silica. Journal of Applied Physics 98, 024306 (2005).

74. A. Meldrum, A. Hryciw, K.S. Buchanan, A.M. Beltaos, M. Glover, C.A. Ryan, J.C. Veinot: Two-dimensionally patterned silicon nanocrystal arrays. Optical Materials 27, 812 (2005).

73. A. Meldrum: Optical Properties of Silicon Nanocrystals, Recent Research Developments in Nuclear Physics 1, 93 (2004).

72. K.S. Buchanan, A. Krichevsky, M.R. Freeman, A. Meldrum: Magnetization dynamics of interacting iron nanoparticles in SiO2. Physical Review B 70, 174436 (2004).

71. A. Hryciw, K.S. Buchanan, A. Meldrum, C.W. White: Effects of particle size and excitation spectrum on the photoluminescence of silicon nanocrystals formed by ion implantation. Nuclear Instruments and Methods in Physics Research B 222, 469 (2004).

70. E. Fok, M. Shih, A. Meldrum, J.C. Veinot: Preparation of alkyl-surface functionalized germanium quantum dots via thermally initiated hydrogermylation. Chemical Communications 4, 386 (2004).

69. A. Meldrum, K.S. Buchanan, A. Hryciw, C.W. White: Micropixelated luminescent nanocrystal arrays produced by ion implantation. Advanced Materials 16, 31 (2004).

68. C.W. White, S.P. Withrow, J.M. Williams, J.D. Budai, A. Meldrum, K.D. Sorge, J.R. Thompson, L.A. Boatner: FePt nanoparticles formed in Al2O3 by ion beam synthesis: Annealing environment effects. Journal of Applied Physics 95, 8160 (2004).

67. A. Meldrum, L.A. Boatner, R.C. Ewing: Size effects in the irradiation-induced crystalline-to-amorphous transformation. Nuclear Instruments and Methods in Physics Research B 207, 28 (2003).

66. A. Meldrum, L.A. Boatner, K. Sorge: Microstructure and Magnetic Properties of Co nanoparticles in ion-implanted Al2O3. Nuclear Instruments and Methods in Physics Research B 207, 36 (2003).

65. R.C. Ewing, A. Meldrum, L. Wang, W.J. Weber, L.R. Corrales: Radiation effects in zircon. Reviews in Mineralogy and Geochemistry 53, 387-425 (2003).

64. C.W. White, S.P Withrow, K.D. Sorge, A. Meldrum, J.D. Budai, J.R. Thompson, L.A. Boatner: Oriented ferromagnetic Fe-Pt alloy nanoparticles produced in Al2O3 by ion-beam synthesis. Journal of Applied Physics 93, 5656 (2003).

63. P. Dubcek, U.V. Desnica, I.D. Desnica-Frankovic, S. Bernstorff, A. Meldrum: A GISAXS study of shape and size of CDS nanocrystals formed in monocrystalline silicon by ion implantation. Nuclear Instruments and Methods in Physics Research B 200, 138 (2003).

62. C.A. Ryan, A. Meldrum, C.W. White: Luminescence and microstructure of microspheres containing silicon nanocrystals. Mater. Res. Soc. Symp. Proc. 703, 21 (2003).

61. A. Hryciw, C.W. White, K. Chow, A. Meldrum: Luminescence of silicon nanocrystals in SiO2: Effect of excitation spectrum. Mater. Res. Soc. Symp. Proc. 777, 3 (2003).

60. A. Meldrum, Minerals with a bright future. Mineralogical Association of Canada Newsletter Feature Article, Vol. 68, Dec. 2002.

59. C.E. Vallet, C.W. White, S.P. Withrow, J.D. Budai, L.A. Boatner, K.D. Sorge J.R. Thompson, K.S. Beaty, A. Meldrum: Magnetic Force Microscopy of Ferromagnetic Nanoparticles formed in Al2O3 and SiO2 by Ion Implantation. Journal of Applied Physics, 92, 6200 (2002).

58. H.Y. Zhai, H.M. Christen, C.W. White, J.D. Budai, A. Meldrum, D. H. Lowndes: Buried superconducting layers comprised of magnesium diboride nanoparticles formed by ion implantation. Applied Physics Letters 80, 4786 (2002).

57. A. Meldrum, L.A. Boatner, R.C. Ewing: Nanocrystalline zirconia can be amorphized by ion irradiation. Physical Review Letters 88, 025503-1-4 (2002).

56. A. Meldrum, L.A. Boatner, W.J. Weber, R.C. Ewing: Amorphization and recrystallization of the ABO3 oxides. Journal of Nuclear Materials 300, 242 (2002).

55. A. Meldrum, K.S. Beaty, M. Lam, C.W. White, R.A. Zuhr, L.A. Boatner: Using Ion Beams to Modify Nanocrystalline Composites: Co Nanoparticles in Sapphire. Mater. Res. Soc. Symp. Proc. 703, V9.4.1 (2002).

54. K.S. Beaty, A. Meldrum, J.P. Franck, K. Sorge, J. R. Thompson, C.W. White, R.A. Zuhr, L.A. Boatner, S. Honda: Controlling the Microstructure and Magnetic Properties of Ferromagnetic Nanocrystals Produced by Ion Implantation. Mater. Res. Soc. Symp. Proc. 703 V9.38.1 (2002).

53. C.W. White, S.P. Withrow, J.D. Budai, L.A. Boatner, K.D. Sorge, J.R. Thompson, K.S. Beaty, A. Meldrum: Ferromagnetic FePt particles formed by by ion implantation. Nuclear Instruments and Methods in Physics Research B 191, 437 (2002).

52. A. Meldrum, R.F. Haglund, Jr., L.A. Boatner, C.W. White: Nanocomposite materials formed by ion implantation. Advanced Materials 13, 1431 (2001).

51. K. D. Sorge, J. R. Thompson, T. C. Schulthess, F. A. Modine, T. E. Haynes, S.-I. Honda, A. Meldrum, J. D. Budai, C. W. White, L. A. Boatner: Oriented, single domain Fe nanoparticle layers in single-crystal yttria-stabilized zirconia, IEEE Transactions on Magnetics 37, 2197 (2001).

50. A. Meldrum, S. Honda, C.W. White, R.A. Zuhr, and L.A. Boatner: Nanocrystals in crystalline silicon: Void formation and hollow particles. Journal of Materials Research 16, 2670 (2001).

49. D. Matsuura, Y. Kanemitsu, T. Kushida, C.W. White, J.D. Budai, A. Meldrum: Photoluminescence dynamics of CdS nanocrystals fabricated by sequential ion implantation. Japanese Journal of Applied Physics Part 1 40, 2092 (2001).

48. A. Meldrum, C.W. White, V. Keppens, L.A. Boatner, R.C. Ewing: Irradiation-induced amorphization of Cd2Nb2O7 pyrochlore. Physical Review B 63, 104109, 1-11 (2001).

47. A. Meldrum, L.A. Boatner, C.W. White: Nanocomposites formed by ion implantation: New developments and future opportunities. Nuclear Instruments and Methods in Physics Research B 178, 7 (2001).

46. A. Meldrum: Irradiation-induced amorphization of titanite. Mater. Res. Soc. Symp. Proc. 650, R3.46.1-6 (2001).

45. A. Meldrum, L.A. Boatner, C.W. White, R.F. Haglund: Nanophase Composites Produced by Ion Implantation: Properties, Problems, Potential. Mater. Res. Soc. Symp. Proc. 647, 012.1.1-11 (2001).

44. D. O. Henderson, A. Ueda, M.H. Wu, A. Zavalin, R. Mu, A. Meldrum: Structural and optical properties of gold in MgO: effects of shape and the interface. Mater. Res. Soc. Symp. Proc. 635, C1.5.1-6 (2001).

43. A. Meldrum, K. Beaty, L. A. Boatner, C. W. White: Ion-irradiation-induced amorphization of cadmium niobate pyrochlore. Mater. Res. Soc. Symp. Proc. 650, R5.4.1-6 (2001).

42. D. Matsuura, Y. Kanemitsu, T. Kushida, C.W. White, J.D. Budai, A. Meldrum, Optical characterization of CdS nanocrystals in Al2O3 matrices fabricated by ion-beam synthesis. Applied Physics Letters, 77, 2289 (2000).

41. R.C. Ewing, A. Meldrum, L.M. Wang, S.X. Wang (2000) Radiation-induced amorphization. In Transformation Processes in Minerals, edited by S.A.T. Redfern and M.A. Carpenter, Mineralogical Society of America, Washington DC (pp. 319-361).

40. S. Honda, F.A. Modine, A. Meldrum, J.D. Budai, T.E. Haynes, L.A. Boatner (2000) Magneto-optical effects from nanophase a-Fe and Fe3O4 precipitates formed in yttrium-stabilized ZrO2 by ion implantation. Applied Physics Letters 77, 711-713.

39. W.J. Weber, W. Jiang, S. Thevuthasan, R.E. Williford, A. Meldrum, L.A. Boatner (2000) Ion-beam-induced defects and defect interactions in perovskite-structure titanates. In Defects and Surface-Induced Effects in Advanced Perovskites, NATO Science Series, Kluwer Academic Press, The Netherlands, pp. 317-328.

38. A. Meldrum, C.W. White, L.A. Boatner, R.C. Ewing (2000) Ion irradiation effects in nonmetals: formation of nanocrystals and novel microstructures. Materials Research Innovations 3, 190-204.

37. A. Meldrum, L.A. Boatner, R.C. Ewing (2000) A Comparison of Radiation Effects in Crystalline ABO4-Type Phosphates and Silicates. Mineralogical Magazine 64, 185-194.

36. S. Honda, F.A. Modine, T.E. Haynes, A. Meldrum, J.D. Budai, K.J. Song, J.R. Thompson, L.A. Boatner (2000) The formation of high-coercivity, oriented, nanophase cobalt precipitates in Al2O3 single crystals by ion implantation. Mater. Res. Soc. Symp. Proc. 581, 71-76.

35. A. Meldrum, E. Sonder, R.A. Zuhr, I.M. Anderson, J.D. Budai, C.W. White, L.A. Boatner D.O. Henderson (1999) A TEM investigation of sulfide nanocrystals formed by ion implantation. J. Mater. Res. 14, 4489-4502.

34. L.M. Wang, S.X. Wang, R.C. Ewing, A. Meldrum, R.C. Birtcher, P.P. Newcomer, W.J. Weber, and Hj. Matzke (1999) Irradiation-induced nanostructures. Materials Science and Engineering A268, 72-80.

33. S.P. Withrow, C.W. White, A. Meldrum, J.D. Budai (1999) Effects of hydrogen in the annealing environment on photoluminescence from Si nanoparticles in SiO2. J. Appl. Phys. 86, 396-401.

32. C.W. White, A. Meldrum, J.D. Budai, S.P. Withrow, E. Sonder, R.A Zuhr, D.M. Hembree Jr., M. Wu, D.O. Henderson (1999) Formation of CdS and CdSe nanocrystals by sequential ion implantation. Nucl. Instr. Meth. Phys. Res. B148, 991-996.

31. A. Meldrum, S.J. Zinkle, L.A. Boatner, S.X. Wang, L.M. Wang, R.C. Ewing (1999) Effects of dose rate and temperature on the crystalline-to-metamict transformation in the ABO4 orthosilicates. Can. Mineral. 37, 207-221.

30. A. Meldrum, R.A. Zuhr, E. Sonder, J.D. Budai, C.W. White, L.A. Boatner, D.O. Henderson, R.C. Ewing (1999) Formation of oriented particles in an amorphous host: ZnS nanocrystal precipitates in silicon. Appl. Phys. Lett. 74, 697-699.

29. A. Meldrum, C.W. White, L.A. Boatner, R.A. Zuhr, I.M. Anderson, E. Sonder, D.O. Henderson (1999) Microstructure of sulfide nanocrystals formed by ion-implantation techniques. Nucl. Instr. Meth. Phys. Res. B148, 957-963.

28. A. Meldrum, S.J. Zinkle, L.A. Boatner, R.C. Ewing (1999) Heavy-ion irradiation effects in the ABO4 orthosilicates: decomposition, amorphization, and recrystallization. Phys. Rev. B. 59, 3981-3992.

27. A. Meldrum, I.M. Anderson, C.W. White, L.A. Boatner, R.A. Zuhr, D.O. Henderson, M. Wu, A. Ueda, R. Mu (1999) Microstructure and size distribution of compound semiconductor nanocrystals synthesized by ion implantation. Mater. Res. oc. Symp. Proc. 536, 317-322.

26. A. Meldrum, L.A. Boatner, S.J. Zinkle, R.C. Ewing (1999) Radiation effects in zircon, hafnon, and thorite: implications for Pu disposal. Mater. Res. Soc. Symp. Proc. 540, 395-400.

25. R.A. Zuhr, J.D. Budai, P.G. Datskos, C.M. Egert, A. Meldrum, K.A. Thomas, C.W. White, L.C. Feldman, M. Strobel, K.-H. Heinig (1999) Nanostructured arrays formed by finely focused ion beams. Mater. Res. Soc. Symp. Proc. 536, 251-256.

24. D.B. Geohegan, A.A. Puretzkty, S.J. Pennycook, A. Meldrum (1999) In situ diagnostics of nanomaterial synthesis by laser ablation: time-resolved photoluminescence spectra and imaging of gas-suspended nanoparticles deposited for thin films. Mater. Res. Soc. Symp. Proc. 536, 359-364.

23. S. Honda, F.A. Modine, A. Meldrum, J.D. Budai, T.E. Haynes, L.A. Boatner, L.A. Gea (1999) Ion-implantation/annealing-induced precipitation of nanophase ferromagnetic particles in yttrium-stabilized ZrO2. Mater. Res. Soc. Symp. Proc. 540, 225-230.

22. C.W. White, E. Sonder, J.D. Budai, A. Meldrum, R.A. Zuhr, S.P. Withrow, D.O. Henderson (1999) Formation of ZnAl2O4 spinel in Al2O3 by ion implantation. Mater. Res. Soc. Symp. Proc. 540, 219-224.

21. W.J. Weber, R. Devanathan, A. Meldrum, L.A. Boatner, R.C. Ewing, L.M. Wang (1999) The effect of temperature and recoil spectra on amorphization in zircon. Mater. Res. Soc. Symp. Proc. 540.

20. A. Meldrum, N. Halden (1999) Fine-scale oscillatory banding in otoliths from arctic charr (Salvelinus Alpinus) and pike (Esox Lucius). Mater. Res. Soc. Symp. Proc. 489.

19. A. Meldrum, L.A. Boatner, C.W. White, D.O. Henderson (1999) Radiation effects in nonmetals: amorphization, phase decomposition, and nanoparticles. Mater. Res. Soc. Symp. Proc. 540, 135-146.

18. C.W. White, S.P. Withrow, A. Meldrum, J.D. Budai, D.M. Hembree, J.G. Zhu, D.O. Henderson, S. Prawer (1999) Optical properties of Si nanocrystals formed in SiO2 by ion implantation. Mater. Res. Soc. Symp. Proc. 501, 249-254.

17. C.W. White, J.D. Budai, J.G. Zhu, S.P. Withrow, R.A. Zuhr, A. Meldrum, E. Sonder, A. Puretzky, D.B. Geohegan, D.O. Henderson (1999) Ion-beam synthesis of CdS, ZnS, and PbS compound semiconductor nanocrystals. Mater. Res. Soc. Symp. Proc. 501, 399-404.

16. A. Meldrum, S.J. Zinkle, L.A. Boatner, R.C. Ewing (1998) A transient liquid-like state in the displacement cascades of zircon, hafnon, and thorite. Nature 395, 56-58.

15. A. Meldrum, L.A. Boatner, R.C. Ewing (1998) Effects of ionizing and displacive irradiation on several perovskite-structure oxides. Nucl. Instr. Meth. Phys. Res. B141, 347-352.

14. A. Meldrum, L.A. Boatner, W.J. Weber, R.C. Ewing (1998) Radiation damage in zircon and monazite. Geochim. Cosmochim. Acta 62, 2509-2520.

13. D.O. Henderson, M. Wu, A. Ueda, Y.S. Tung, R. Mu, J. Chen, Z. Gu, W.E. Collins, C.W. White, J. Budai, A. Meldrum, R.A. Zuhr, J.G. Zhu (1998) Selenium nanoparticles formed by ion implantation into fused silica. Nucl. Instr. Meth. Phys. Res. B141, 284-288.

12. C.W. White, J.D. Budai, S.P. Withrow, J.G. Zhu, E. Sonder, R.A. Zuhr, A. Meldrum, D.J. Hembree, Jr., D.O. Henderson, and S. Prawer (1998) Encapsulated semiconductor nanocrystals formed in insulators by ion beam synthesis. Nucl. Instr. Meth. Phys. Res. B141, 228-240.

11. A. Ueda, Y.S. Tung, M. Wu, W.E. Collins, D.O. Henderson, C.W. White, R.A. Zuhr, J.D. Budai, A. Meldrum, P.W. Wang, X. Li (1998) Interaction of Fn-centers with gold nanocrystals produced by gold ion implantation in MgO single crystals. Nucl. Instr. Meth. Phys. Res. B141, 261-267.

10. E.G. Roth, O.W. Holland, A. Meldrum, Manipulating ion-induced defects to improve implantation processing of silicon, in Silicon Materials Science and Technology, Vol. 2, edited by H.R. Huff, H. Tsuya, and U. G Sele (The Electrochemical Society, Pennington, NJ, 1998) pp. 938-947.

9. A. Meldrum, L.A. Boatner, R.C. Ewing (1998) Phase transitions during ion-beam irradiation of the perovskite structure oxides. Mater. Res. Soc. Symp. Proc. 481, 401-406.

8. L. Gea, S. Honda, L.A. Boatner, T.E. Haynes, B.C. Sales, F.A. Modine, A. Meldrum, J.D. Budai, L. Beckers (1998) A new approach to the fabrication of "smart" near-surface nanostructure composites. Mater. Res. Soc. Symp. Proc. 501, A. Meldrum, L.A. Boatner, R.C. Ewing (1997) Electron irradiation-induced nucleation and growth in amorphous LaPO4, ScPO4, and zircon. J. Mater. Res. 12,1816-1827.

7. A. Meldrum, L.A. Boatner, L.M. Wang, R.C. Ewing (1997) Displacive irradiation effects in the monazite- and zircon-structure orthophosphates. Phys. Rev. B56, 13805-13814.

6. A. Meldrum, L.M. Wang, R.C. Ewing (1997) Electron-beam-induced crystallization and phase segregation in crystalline and amorphous apatite: A TEM study. Am. Mineral. 82, 858-869.

5. A. Meldrum, A. Abdel-Rahman, R.F. Martin, W. Wodicka (1997) The nature, age, and petrogenesis of the Cartier Batholith, northern flank of the Sudbury Structure, Ontario, Canada. Precamb. Res. 82, 265-285.

4. A. Meldrum, L.A. Boatner, L.M. Wang, R.C. Ewing (1997) Ion beam-induced amorphization of LaPO4 and ScPO4. Nucl. Instr. Meth. Phys. Res. B127/128 160-165.

3. W.J. Weber, R.C. Ewing, A. Meldrum (1997) On the kinetics of alpha-decay-induced amorphization in zircon and apatite containing weapons-grade plutonium or other actinides. J. Nucl. Mater. 250, 147-155.

2. A. Meldrum, L.A. Boatner, R.C. Ewing (1997) Thermal and Electron-beam-induced crystallization in amorphous orthophosphates. Mater. Res. Soc. Symp. Proc. 439, 697-702.

1. A. Meldrum, L.M. Wang, R.C. Ewing (1996) Ion-beam-induced amorphization of monazite. Nucl. Instr. Meth. Phys. Res. B116, 220-224.

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